CN102300913A

CN102300913A - Electrodepositable coating composition comprising silane and yttrium

Info

Publication number: CN102300913A
Application number: CN2010800055273A
Authority: CN
Inventors: T·G·林根菲尔特; A·福利; E·F·拉基维茨; R·F·卡拉宾
Original assignee: PPG Industries Inc
Current assignee: PPG Industries Inc
Priority date: 2009-01-27
Filing date: 2010-01-27
Publication date: 2011-12-28
Also published as: US8486538B2; MX2011007870A; KR20110119742A; AU2010208363B2; RU2496814C2; BRPI1005369A2; AU2010208363A1; US20100187117A1; CA2749527A1; UA105917C2; KR101323869B1; RU2011135805A; SG172836A1; CN105462328A; WO2010088250A1; HK1221729A1; EP2391673A1; CA2749527C

Abstract

Provided is an electrodepositable coating composition comprising: (i) a film-forming polymer, (ii) a corrosion inhibitor, and (iii) a silane that does not contain an ethylenically unsaturated double bond.

Description

The electrodepositable coating composition that comprises silane and yttrium

The cross reference of related application

The application has required the right of priority of the U.S. Provisional Application submitted on January 27th, 2009 number 61/147,583.

Background technology

Invention field

The present invention relates generally to electrodepositable coating composition.

Background information

Galvanic deposit is included in as the coating method of application under the influence of the electromotive force that applies electrodepositable coating composition is deposited on the conductive substrate.It is more and more important that galvanic deposit becomes in paint industry, because compare with non-electrophoretic coating method, galvanic deposit provides the pigment utilization that increases, improved non-corrosibility and low environment to pollute.

In electrodeposition process, electrodepositable coating composition has been used preprocessing solution before being deposited on electrodeposition technology, for example on the base material that the zinc phosphate preprocessing solution was anticipated.Remove the preceding pre-treatment step of electrodeposition technology and will reduce the cost relevant, and eliminate any chemical by-product that in pre-treatment step, produces with coated substrate.In addition, in the automotive OEM Default Value, the elimination of pre-processing device will mean that the scale of factory can scaled potentially or recoverable useful factory floor space.

Therefore, the present invention relates to be applied to electrodepositable coating composition on the not pretreated base material.

Summary of the invention

The present invention relates to electrodepositable coating composition, comprise (i) film-forming polymer, (ii) yttrium and (iii) do not comprise the silane of ethylenical unsaturated double bonds.The invention further relates to the base material that scribbles this coating composition.

The invention still further relates to mainly by the following electrodepositable coating composition of forming: (i) comprise the film-forming polymer of reactive functional groups, (ii) yttrium, (iii) do not comprise the silane of ethylenical unsaturated double bonds; (iv) the reactive functional groups to film-forming polymer is reactive linking agent; (v) catalyzer.

The invention still further relates to electrodepositable coating composition, comprise (i) film-forming polymer, (ii) yttrium and (iii) aminosilane.The invention further relates to the base material that scribbles this coating composition.

Detailed Description Of The Invention

Unless offer some clarification in addition, all numerical value used herein, those of for example expression value, scope, amount or per-cent can be regarded as by speech " pact " and modify, even term does not clearly occur.Plural number comprises odd number, and vice versa.For example, though this paper mentions " a kind of " film-forming polymer, " a kind of " yttrium, " a kind of " silane, the combination of these components (multiple) can be used for the present invention." multiple " used herein is meant two or more.

" comprising " used herein and similar terms are meant " including but not limited to ".

When mentioning any numerical range, this scope is interpreted as each numeral and/or the segment that comprises between described stated range minimum and the maximum value.

" molecular weight " used herein is meant the weight-average molecular weight (M by gel permeation chromatography _w).

Term used herein " curing " is meant the wherein partial cross-linked at least coating of any crosslinkable component of composition.In certain embodiments, the cross-linking density of crosslinkable component (being degree of crosslinking) is complete crosslinked 5%-100%, and for example 35%-85% perhaps in some cases, is 50%-85%.It will be appreciated by those skilled in the art that to be crosslinked existence and degree, promptly cross-linking density can pass through the whole bag of tricks, for example uses Polymer Laboratories MK III DMTA analyser to carry out dynamic mechanical analysis (DMTA) under nitrogen and measures.

Any monomer that this paper mentions generally be meant can with the monomer of another kind of polymerizable compound such as another kind of monomer or polymer polymerizing.Except as otherwise noted, in case be construed as the monomer component formation compound that reacts to each other, this compound will comprise the residue of monomer component.

Electrodepositable coating composition

The present invention relates to coating composition, comprise (i) film-forming polymer, (ii) yttrium and (iii) do not comprise the silane of ethylenical unsaturated double bonds.In certain embodiments, coating composition comprises the aminosilane that can maybe cannot contain ethylenical unsaturated double bonds.In certain embodiments, when film-forming polymer comprised reactive functional groups, the reactive functional groups that coating composition further comprises (iv) film-forming polymer was reactive solidifying agent.

Various film-forming polymer as known in the art can be used as component (i), as long as this polymkeric substance is " water dispersible "." water dispersible " used herein is meant that material is suitable for dissolving in water, dispersion and/or emulsification.Film-forming polymer used among the present invention is essentially ionic.Therefore, in certain embodiments, film-forming polymer is cationic.In other words, film-forming polymer comprises the cationic salts group, generally prepares by the functional group that is neutralized on the membrane polymer with acid, make film-forming polymer can galvanic deposit on negative electrode.

Be applicable to that cationic electropaining covers examples of film-forming in the coating composition and include, but are not limited to cation type polymer derived from polyepoxide, acroleic acid resin, urethane and/or polyester.In certain embodiments, film-forming polymer comprises reactive functional groups.Term used herein " reactive functional groups " is meant hydroxyl, carboxyl, carbamate, epoxy group(ing), isocyanic ester, acetylacetic ester, amine salt, mercaptan or its combination.It should be noted that in certain embodiments film-forming polymer is the multipolymer of listed polymkeric substance in last sentence.In certain embodiments, cation type polymer can obtain by making the polyepoxide and the cationic salts group formation agent reaction that comprise polymkeric substance." cationic salts group form agent " used herein be meant to epoxide group be reactive and can with the epoxide group reaction before, during or afterwards by acidifying to form the material of cationic salts group.The suitable substance that can be used as cationic salts group formation agent comprises amine, for example can with epoxide group reaction back by acidifying forming the primary amine or the secondary amine of amine salt group, or can with the epoxide group reaction before by acidifying and forming the tertiary amine of quaternary ammonium salt group with epoxide group reaction back.The example that other cationic salts groups form agent be can with the epoxide group reaction before with the sour sulfide that mixes and react formation uncle sulfonium group subsequently with epoxide group.

In certain embodiments, the used film-forming polymer of the present invention comprises epoxy functional compound (for example EPON 880) and as the phenolic hydroxy group material of polyphenol such as the reaction product of dihydroxyphenyl propane.In certain embodiments, the film-forming polymer of in last sentence, describing can with amine, for example aminopropyl diethanolamine (APDEA) and dimethylaminopropyl amine (DMAPA) react, so that make film-forming polymer water to disperse.In certain embodiments, thus ketoimine can form the ketoimine side chain that dangle and prolong with main chain with the reaction of the main chain of film-forming polymer.When polymer dispersed was in water/acid mixture, the ketoimine side chain was with hydrolysis and form primary amine.Therefore, in certain embodiments, at U.S. Patent number 5,633, disclosed electrodepositable coating composition can use with the present invention in 297,5,820,987 and/or 5,936,012.

Various corrosion inhibitors can be used as among the present invention component (ii).Suitable corrosion inhibitor includes, but are not limited to rare earth metal, bismuth, copper, zinc, silver, zirconium or its combination.In certain embodiments, yttrium compound can be used as corrosion inhibitor.Various yttrium compounds can be used as among the present invention component (ii).For example, yttrium compound can include, but are not limited to formic acid yttrium, yttium acetate, lactic acid yttrium, thionamic acid yttrium, methylsulfonic acid yttrium or its combination.In certain embodiments, yttrium constitutes electrodepositable coating composition≤5 weight % all resins solids.In other embodiments, yttrium constitutes electrodepositable coating composition 〉=0.15 weight % all resins solid.In certain embodiments, the amount of yttrium can be any combination between the value of enumerating in previous statement, comprises institute's train value.For example, in certain embodiments, the amount of yttrium can be all resins solid 0.20 weight %-2 weight % of electrodepositable coating composition.

In the present invention, the silane that does not comprise ethylenical unsaturated double bonds usually as component (iii).Yet in certain embodiments, the aminosilane that can maybe cannot comprise ethylenical unsaturated double bonds can be used among the present invention." ethylenical unsaturated double bonds " used herein is meant carbon-to-carbon double bond.In certain embodiments, silane can comprise functional group, such as but not limited to hydroxyl, carbamate, epoxy group(ing), isocyanic ester, amine, amine salt, mercaptan or its combination.The suitable silane that can use in the present invention includes, but are not limited to aminosilane, hydrosulphonyl silane or its combination.In certain embodiments, silane can be the mixture of aminosilane and another kind of material such as vinyltriacetoxy silane.Therefore, in certain embodiments, electrodepositable coating composition also can comprise the silane that contains ethylenical unsaturated double bonds except comprising the silane that does not contain ethylenical unsaturated double bonds.

If (i) film-forming polymer comprises reactive functional groups, for example aforesaid those, the electrodepositable coating composition reactive functional groups that can further comprise (iv) polymkeric substance is reactive linking agent (" solidifying agent ") so.Suitable crosslinking agent includes, but are not limited to aminoplastics, polyisocyanates (comprising blocked isocyanate), polyepoxide, beta-hydroxyalkylamides, poly-acid, acid anhydrides, organo metallic acid official energy material, polyamines, multiamide, cyclic carbonate, siloxanes or its combination.In certain embodiments, solidifying agent can constitute 30 weight %-40 weight % all resins solids of coating composition.

In certain embodiments, electrodepositable coating composition can further comprise (the curing catalysts that v) can be used for the reaction between the reactive functional groups of cross-linking catalyst and film-forming polymer.(suitable curing catalysts v) includes, but are not limited to organo-tin compound (for example Dibutyltin oxide, dioctyl tin oxide) and salt (for example dibutyltin diacetate) thereof to can be used as component; Other metal oxides (for example oxide compound of cerium, zirconium and/or bismuth) and salt (for example thionamic acid bismuth and/or bismuth lactate) thereof, bicyclo guanidine (as open in Application No. 11/835,600) or its combination.

In certain embodiments, after electrodepositable coating composition being coated on the base material and solidifying, when carrying out PATTI ADHESION TESTING METHOD, electrodepositable coating composition shows that the burstpressures adhesion value is 〉=500 pounds/square inch (psi), for example 550 (psi)-1000 (psi).PATTI ADHESION TESTING METHOD is a two-step approach.In the first step, the base material that being coated with of adhesion property to be tested solidified electrodepositable coating composition is introduced in the QCT-MB case (commercially available from Q-Panel Lab Products) and be exposed to condensation humidity under 60 ℃ temperature and assigned 16 hours.Remove base material then and use rag to remove any condensation product on the coating surface.Then, (commercially available from Elcometer, Inc.) adhesion property of electrodepositable coating composition is solidified in measurement to use Elcometer PATTI 110 adhesion testers.This method is at first by using 3M SCOTCHWELD DP-460 tackiness agent to make ¹/ ₂Inch diameter aluminium pull head is (commercially available from Elcometer, Inc.) be bonded to the surface of solidifying electrodepositable coating composition (slightly frosted and use KIMWIPES subsequently of the surface that applies the aluminium pull head on it, water cleans with the Virahol wet tissue then afterwards) beginning.The piston of Elcometer PATTI 110 adhesion testers connects the aluminium pull head and uses adhesion tester to apply pulling force to head.Increase pulling force up to the adhesion failure of realizing solidifying electrodepositable coating composition.Can use the appropriate conversion chart that provides by Elcometer PATTI110 adhesion tester to calculate the value (" burstpressures adhesion value ") that causes the required power of adhesion failure then." the burstpressures adhesion value " measured with pound/square inch (psi) used herein is for to cause that coating loses the value to the required power of adhesion.

In certain embodiments, when electrodepositable coating composition as herein described and the electrodepositable coating composition that does not comprise silane and corrosion inhibitor (common electrodepositable coating composition) when comparing, when carrying out PATTI ADHESION TESTING METHOD, the burstpressures of electrodepositable coating composition will exceed common electrodepositable coating composition burstpressures 〉=100 pound/square inch (psi).

Electrodepositable coating composition disclosed herein provides as two-pack usually: (1) main carrier (" pure resin raw material ") and (2) grinding carrier (" pigment paste ").Generally speaking, (1) main carrier comprises (a) film-forming polymer (" resin that contains the ion salt group that contains active hydrogen "), (b) linking agent and (c) any additional water dispersible colouring component (for example catalyzer, hindered amine as light stabilizer) not.Generally speaking, (2) grinding carrier comprises the water dispersible grind resin that (d) one or more pigment (for example titanium dioxide, carbon black), (e) can be identical or different with film-forming polymer, and optional (f) additive such as catalyzer, oxidation inhibitor, sterilant, defoamer, tensio-active agent, wetting agent, dispersing auxiliary, clay, hindered amine as light stabilizer, UV light absorber and stablizer or its combination.The electrodeposition bath that comprises electrodepositable coating composition of the present invention can comprise water and prepares in the aqueous medium of agglomerated solvent usually by component (1) and (2) are dispersed in.The (ii) yttrium that in electrodepositable coating composition of the present invention, uses and/or (iii) silane can incorporate in main carrier, the grinding carrier, or the back adds in the bath that component (1) and (2) prepares.Additionally, component (1) and (2) also can be used as single-component provides.

Base material with coating system

Electrodepositable coating composition described herein can apply separately or as the part that can be deposited on the coating system on a large amount of different substrate materials.Coating system generally includes many coatings.Coating composition on being deposited on base material when fully solidifying, forms coating by method as known in the art (for example by heating) usually.

The base material that the suitable substrate that can be coated with electrodepositable coating composition of the present invention includes, but are not limited to metal base, metal alloy base and/or metallized, for example nickel plating plastics.In certain embodiments, metal or metal alloy can be aluminium and/or steel.For example steel substrate can be cold-rolled steel, electro-galvanized steel and electro-galvanized steel.In addition, in certain embodiments, base material can comprise a part such as the vehicle body (such as but not limited to car door, body panel, case hatchcover spare, roof panel, hood and/or roof) and/or the vehicle frame of vehicle.That " vehicle " used herein or its version include, but are not limited to is civilian, commercial and military land vehicle such as car, motorcycle and truck.Should also be understood that in certain embodiments base material can be used preprocessing solution, for example at U.S. Patent number 4,793, the zinc phosphate solution of describing in 867 and 5,588,989 is anticipated.Additionally, in other embodiments, before with coating composition coated substrate described herein, base material is not anticipated with preprocessing solution.

In certain embodiments, electrodepositable coating composition of the present invention is applied on the base material of exposed (promptly not anticipating).Yet in certain embodiments, electrodepositable coating composition of the present invention can be applied on the pretreated base material.After electrodepositable coating composition solidifies, priming paint-surfacer coating composition is applied at least a portion electrodepositable coating composition.Usually before general's coating composition subsequently is applied on priming paint-surfacer coating composition, priming paint-surfacer coating composition is applied to electrodepositable coating and curing.

Priming paint-surfacer the layer that is produced by priming paint-surfacer coating composition is used to strengthen the resistance to chipping of coating system and helps the outward appearance of applied layer (for example, giving the coating composition and/or the substantial transparent coating composition of color) subsequently." priming paint-surfacer " used herein is meant the paint base composition that uses under the coating composition that applies subsequently, and comprises known this type of material as thermoplasticity and/or crosslinked (for example thermoset) film-forming resin in the organic coating compositions field usually.Suitable priming paint and priming paint-surfacer coating composition comprises the priming paint of spraying as is known to persons skilled in the art.The example of suitable priming paint comprises can be from PPG Industries, Inc., and Pittsburgh, it is several that Pa. obtains, and is DPX-1791, DPX-1804, DSPX-1537, GPXH-5379, OPP-2645, PCV-70118 and 1177-225A.Priming paint-the surfacer of the another kind of suitable priming paint-surfacer coating composition that can use in the present invention for describing in Application No. 11/773,482, its integral body is incorporated herein for reference.

It should be noted that in certain embodiments priming paint-surfacer coating composition does not use in coating system.Therefore, the colouration primer composition can directly be applied to and solidify on the electrodepositable coating composition.

In certain embodiments, colouration coating composition (claiming " undercoat " hereinafter) is deposited at least a portion priming paint surfacer coating (if existence).Any bottom coating composition as known in the art can be used among the present invention.It should be noted that these bottom coating compositions comprise tinting material usually.

In certain embodiments, the coating composition of substantial transparent (hereinafter being called " Clear coating ") is deposited at least a portion undercoat." substantial transparent " used herein coating be substantial transparent and do not have opaque.In certain embodiments, the coating composition of substantial transparent can comprise tinting material, but its amount becomes after clear coating composition is solidified opaque (not being substantial transparent).Any Clearcoat coating composition as known in the art can be used among the present invention.For example, at U.S. Patent number 5,989, the Clearcoat coating composition of describing in 642,6,245,855,6,387,519 and 7,005,472 can be used in the coating system, and these document integral body are incorporated herein for reference.In certain embodiments, the coating composition of substantial transparent also can comprise the particle that is dispersed in (for example the curing back is on the Clearcoat coating composition surface) in the Clearcoat coating composition, for example silica microparticle.

One or more coating compositions described herein can be included in known tinting material and/or other optional material in the preparation topcoating field.Term used herein " tinting material " is meant any material of giving composition color and/or other opacity and/or other visual effects.Tinting material can any suitable form, and for example discrete particles, dispersion, solution and/or thin slice (for example kaolin) are added in the coating.The mixture of single tinting material or two or more tinting materials can be used in the coating composition described herein.

The example of tinting material comprises pigment, dyestuff and tinter, for example in coatings industry, use and/or in Dry Color Manufacturers Association (DCMA), list those, and special effect compositions.Tinting material for example can be included in fine-grannular pressed powder soluble but wettable under the working conditions.That tinting material can be organic or inorganic and can be and assemble or accumulative not.Can be by using grinding carrier, for example the acrylic acid or the like grinding carrier is introduced tinting material in the coating, and the use of described grinding carrier is well known to those skilled in the art.

The example of pigment and/or color compositions includes, but not limited to carbazole two

The thick pigment of piperazine, azo, monoazo, two azos, naphthols AS, salt type (color lake), benzimidazolone, condenses, metal complexes, iso-dihydro-indole, isoindoline and encircle phthalocyanine, quinacridone, perylene, purple cyclic ketones, diketopyrrolo-pyrrole, thioindigo, anthraquinone, indanthrone, anthracene pyrimidine, flavanthrone, pyranthrone, anthanthrone, two more Piperazine, triaryl carbon, quinophthalone pigment, diketopyrrolo-pyrrole red (" DPPBO is red "), titanium dioxide, carbon black and composition thereof.Term " pigment " and " colored filler " are used interchangeably.

The example of dyestuff includes but not limited to solvent and/or water base those, and for example phthalein cyanogen is green or phthalein cyanogen indigo plant, ferric oxide, pucherite, anthraquinone, perylene, aluminium and quinacridone.

The example of tinter includes but not limited to be dispersed in the pigment in water base or the mixable carrier of water, for example commercially available from Degussa, Inc. AQUA-CHEM 896, commercially available from Accurate Dispersions division of Eastman Chemical, the CHARISMA COLORANTS of Inc. and MAXITONER INDUSTRIAL COLORANTS.

As mentioned above, tinting material can be the dispersion form, includes but not limited to be the nanoparticle dispersion form.Nanoparticle dispersion can comprise the nanoparticle colorants and/or the coloring agent particle of one or more high dispersing, and it produces required visible color and/or opacity and/or visual effect.Nanoparticle dispersion can comprise particle diameter less than 150nm, for example less than 70nm, or less than tinting material such as pigment or the dyestuff of 30nm.Nano particle can be produced by raw material organic or inorganic pigment is ground less than the grinding medium of 0.5mm with particle diameter.Example of nanoparticle dispersion and preparation method thereof is at U.S. Patent number 6,875, is described in 800, and the document is incorporated herein for reference.Nanoparticle dispersion also can be produced by crystallization, precipitation, vapor condensation and chemical abrasion (promptly being partly dissolved).In order to make again coalescent minimize of nano particle in coating, can use the dispersion of the nano particle of resin coating." dispersion of the nano particle of resin coating " used herein is meant and the external phase of wherein having disperseed discrete " composite particles " should " composite particles " comprises nano particle and the resin coating on this nano particle.The U.S. Provisional Application of submitting in the U.S. Patent Publication 2005-0287348 that example of the dispersion of the nano particle of resin coating and preparation method thereof was submitted on June 24th, 2004, on June 24th, 2003 number 60/482, the U.S. Patent Application Serial Number 11/337 that on January 20th, 167 and 2006 submitted to, be described in 062, these documents are incorporated herein for reference.

The example of spendable special effect compositions comprises pigment and/or the composition that produces one or more appearance effects such as reflection, pearly-lustre, metalluster, phosphorescence, fluorescence, photochromic, photosensitivity, thermochromism, changeable colors along with angle (goniochromism) and/or colour-change.Other special effect compositions can provide other discernable performance, for example opacity or texture.In non-limiting embodiments, special effect compositions can produce gamut, so that when when different angles are observed coating, the color change of coating.The example of example color effect compositions is at U.S. Patent number 6,894, is described in 086, and it is incorporated herein for reference.Other example color effect compositions can comprise the mica of clear-coated and/or synthetic mica, coating silicon-dioxide, coating aluminum oxide, transparent liquid crystal pigment, liquid crystal coating and/or wherein interfere refractive index difference by material internal to cause and not owing to any composition of the refractive index difference between material surface and the air.

In some non-limiting embodiments, photo-sensitive composition and/or photochromic composition that can reverse its color of change when being exposed to one or more light sources can be used for coating composition described herein.Can make photochromic by the radiation that is exposed to specific wavelength and/or the photo-sensitive composition activation.When composition was subjected to exciting, the structure that molecular structure changes and changes demonstrated the new color different with the priming color of composition.When elimination exposed radiating, photochromic and/or photo-sensitive composition can return to static state, and wherein the priming color of composition recovers.In a non-limiting embodiments, photochromic and/or photo-sensitive composition can under nonexcitation state be colourless and under excited state Show Color.Color change can occur to several minutes at several milliseconds completely, for example 20 seconds to 60 seconds.Example photochromic and/or photo-sensitive composition comprises photochromic dyes.

In non-limiting embodiments, photo-sensitive composition and/or photochromic composition can be for example associate with the polymer materials of polymkeric substance and/or polymerizable components and/or combine to small part by covalent linkage.Can from coating, move and crystallization is compared to some coating in the base material migration of associating with polymkeric substance and/or polymerizable components and/or having the minimum degree from coating to small part bonded photo-sensitive composition and/or photochromic composition of non-limiting embodiments according to the present invention with photo-sensitive composition wherein.Example of photo-sensitive composition and/or photochromic composition and preparation method thereof is described in the U. S. application sequence number of submitting on July 16th, 2,004 10/892,919.

Generally speaking, tinting material can enough be given any amount existence of required vision and/or color effects.Tinting material can constitute the 1-65 weight % of the present composition, for example 3-40 weight % or 5-35 weight %, and wherein wt percentage ratio is based on the gross weight of composition.

Coating composition can comprise well-known other optional material in the preparation topcoating field, for example softening agent, antioxidant, hindered amine as light stabilizer, UV light absorber and stablizer, tensio-active agent, flowing regulator, thixotropic agent such as wilkinite, pigment, filler, organic cosolvent, catalyzer comprise phosphonic acids and other conventional auxiliary agents.

Except material as mentioned above, coating composition also can comprise organic solvent.The appropriate organic solvent that can use in coating composition is included in listed those and butylacetate, dimethylbenzene, methyl ethyl ketone or its combination in the earlier paragraphs.

What will be further understood that is that one or more coating compositions that form various coatings described herein can be " single-component " (" 1K "), " two-pack " (" 2K ") or even multi-component combination.The 1K composition will be interpreted as be meant after preparation, all coating components are kept at the composition in the same container between the shelf lives etc.2K composition or multi-component combination will be interpreted as the composition that is meant that various components are preserved separately before just applying.1K or 2K coating composition can be applied to base material and by any ordinary method, for example curing such as heating, forced air.

The coating composition that can use any technology as known in the art will form various coatings described herein deposits or is applied on the base material.For example, can pass through any following the whole bag of tricks, include but not limited to spraying, brushing, dip-coating and/or roller coat, coating composition is applied to base material together with additive method.When multiple coating composition is applied on the base material, should be noted that and after primer composition has cured or before primer composition will solidify, a kind of coating composition to be applied at least a portion of primer composition.If coating composition is applied on the also uncured primer composition, two kinds of coating composition concurrently curables then.

Can use any technical cure coating composition as known in the art, such as but not limited to heat energy, infrared, ionization or actinic radiation or by its arbitrary combination.In certain embodiments, curing operation can carry out under 〉=10 ℃ temperature.In other embodiments, curing operation can carry out under≤246 ℃ temperature.In certain embodiments, carry out under the temperature range of the arbitrary combination of the value that curing operation can be enumerated in aforementioned statement, comprise cited value.For example, curing operation can carry out under 120 ℃-150 ℃ temperature.Yet, should be noted in the discussion above that lower or higher temperature can use as required to activate curing mechanism.

In certain embodiments, one or more coating compositions described herein coating composition that is low temperature, moisture-curable.Term used herein " low temperature, moisture-curable " is meant after being applied to base material, coating composition can solidify in the presence of ambient air, the relative humidity of described air is 10%-100%, 25%-80% for example, and temperature is-10 ℃-120 ℃, for example 5 ℃-80 ℃ is being 10 ℃-60 ℃ in some cases, is 15 ℃-40 ℃ in other cases.

The build of coating as herein described can be 0.1 micron-500 microns.In other embodiments, build can be≤125 microns, for example≤80 micron.For example, build can be 15 microns-60 microns.

Although described specific embodiments of the present invention in detail, it will be understood by those skilled in the art that various improvement and the replacement scheme that to develop those details according to the integral body instruction of present disclosure.Therefore, with regard to scope of the present invention, disclosed concrete scheme means just illustrative and not restrictive, and scope of the present invention is provided by whole width and all equivalent way thereof of claims.

Embodiment

Embodiment A

Cation type resin A: prepare cation type resin by following mixture of ingredients:

Packing into is equipped with agitator, temperature survey detector, N with 1039.8g linking agent 1 (referring to following description), 55.0g Macol 98B (dihydroxyphenyl propane-6 ethylene oxide polyvalent alcohol that can obtain from BASFCorporation), 69.6g diglycol monotertiary butyl ether formal, 528.7g Epon 828 (Resins, epoxy that can obtain from Resolution Performance Products), 203.9g dihydroxyphenyl propane and 0.18g Tetronic 150R1 (can obtain from BASF Corporation) ₂In the 4 neck round-bottomed flasks of tectum and Dean-Stark water trap.With mixture heating up to 75 ℃ and add the 34.7g diethanolamine.The mixture heat release is to about 80 ℃ and kept 30 minutes after adding diethanolamine.Add 80.3g aminopropyl diethanolamine, with temperature regulation to 132 ℃ and mixture was kept 2 hours under this temperature, the about 30g solvent of collection in the Dean-Stark water trap simultaneously.This mixture of 1680g is poured in the mixture of 30.5g thionamic acid, 1181g deionized water, 1.15g lactic acid (88%) and 66.3g additive resin 1 (following description).Stirred the mixture 30 minutes.Add 1183g deionized water and thorough mixing.Add 1000g deionized water and thorough mixing.Remove by vacuum distilling and to desolvate and water, the solid of gained water dispersion is adjusted to 39%.The methyl iso-butyl ketone (MIBK) content of dispersion is less than 0.2%.

Linking agent 1 is by preparing the mixture that 1320g (10eq.) Desmodur LS 2096 (the MDI type isocyanic ester that can obtain from Bayer Corporation) is added to 92g ethanol, 456g propylene glycol, 740gMacol 98B (seeing above) and 486g diglycol monotertiary butyl ether formal and 93g methyl iso-butyl ketone (MIBK).With the purificant of 68g methyl iso-butyl ketone (MIBK) as isocyanic ester.Make temperature rise to 115 ℃ and make mixture remain on this temperature to show there is not isocyanic ester up to infrared spectra.

The description of additive resin 1

1	MAZEEN?35570 ¹	1423.49
			2	Acetate	15.12
3	Dibutyl tin laurate	1.52
			4	Tolylene diisocyanate 80/20	200.50
5	Thionamic acid	79.73
			6	Deionized water	1623.68
7	Deionized water	766.89

¹The amine equivalent that can obtain from BASF Corporation is 1131 amine official energy dibasic alcohol.

Material 1 and 2 packed into be equipped with agitator, temperature survey detector and N ₂In the tectal 4 neck round-bottomed flasks and mixed 10 minutes.Add material 3, the material 4 of in about 1 hour, packing into then, making reaction mixture heat release to top temperature is 100 ℃.Make mixture remain on 100 ℃ then and show there is not isocyanic ester (about 1 hour) until infrared spectra.The 1395g reaction mixture is poured in the mixture of material 5 and 6 and mixed 1 hour.In about 1 hour, add material 7 then and mixed about 1 hour.The solid content of obtained aqueous solution is about 36%.

Embodiment B

Cation type resin B: prepare cation type resin by following mixture of ingredients:

¹Can obtain from BASF Corp., be Mazon 1651

²Can be from the Resins, epoxy of Hexion Specialty Chemicals acquisition

³Can obtain from BASF Corp.

⁴Can obtain from Air Products Corp.

⁵The reaction product of 10 equivalent Desmodur LS 2096 (Bayer Corp.) and 2 moles of ethanol, 7 moles of propylene glycol and 1 mole of Macol98B (molecular weight is 500 bis-phenol ethylene oxide adduct, BASF Corp.) is solution

Program: material 1,2,3 and 4 packed into is equipped with agitator, temperature survey detector, N ₂In the 4 neck round-bottomed flasks of tectum and Dean-Stark water trap and be heated to 70 ℃ and mix to keep 15 minutes.Stop heating and add material 5,6 and 7 (mixing).Reaction mixture heat release to maximum value after about 10 minutes is 176 ℃.Slowly adding materials 8 and 9 (mixings) in 15 minutes behind the peak value exothermic temperature and making mixture be cooled to 145 ℃ and maintenance 2 hours altogether under this temperature from the peak value exothermic temperature.Add material 10 and 11 and mixture is adjusted to 110 ℃ then.Under vigorous stirring the 2040g reaction mixture is poured in the solution of material 12,13 and 14, this solution is by heating and stir 12,13 and 14 mixture to 60 and ℃ reach 30 minutes, is cooled to 50 ℃ and preparation in advance then.Resin dispersion was mixed about 1 hour.Under agitation slowly add material 15.The solid content that a final moisture prose style free from parallelism records is 20%.

Embodiment C

Grind resin: present embodiment has been described the preparation that contains quaternary ammonium salt pigment-grind resin.Embodiment C-1 has been described the preparation and the Embodiment C-2 of amine acid salt quaternizing agent and has been described subsequently with the quaternised preparation that contains the epoxide group polymkeric substance of the amine acid salt of Embodiment C-1.

C-1 uses following program to prepare amine acid salt quaternizing agent:

Material 1 is packed in 5 liters of flasks of suitable equipment.The material 2 of in 1.5 hours, under gentle agitation, packing into then, the purificant of the material 3 of packing into subsequently.In this interpolation process, make the reaction mixture heat release keep about 1 hour to about 89 ℃ temperature and under this temperature until passing through infrared measurement isocyanic ester complete reaction.At this moment, in 25 minutes, add material 4, add material 5 subsequently.Temperature of reaction was kept about 6 hours down at about 80 ℃, was 70.6 up to obtaining static acid number.

C-2 uses following program preparation to contain the polymkeric substance of quaternary ammonium salt group.

Material 1 is packed under gentle agitation in 5 liters of flasks of suitable equipment.Add material 2 then, add material 3 and material 4 subsequently.Reaction mixture is heated to about 140 ℃, makes its heat release to about 180 ℃, be cooled to about 160 ℃ and under this temperature, kept about 1 hour then.At this moment, the epoxy equivalent (weight) of polymer product is 982.9.Then reaction mixture is cooled to about 130 ℃ temperature, add material 5 and make temperature be reduced to about 95 ℃-100 ℃ this moment, added amine-sour quaternizing agent of material 6,6-1 subsequently in 15 minutes, adds the deionized water of about 1428.1 weight parts subsequently.Temperature of reaction kept about 6 hours down at about 80 ℃, was lower than 1.0 up to the acid number of reaction product.Further refine the pigment grind resin that contains quaternary ammonium salt group of gained with the butylcarbitol formal solvent of about 334.7 weight parts.

Embodiment D

Pigment paste: this embodiment has described the preparation that is adapted at the pigment paste used in the electrodeposition bath composition of the present invention.

Pigment paste prepares with following composition:

¹Prepare by following mixture of ingredients: the grind resin that contains quaternary ammonium salt group of 632g Embodiment C; The 92g deionized water; 19g n-butoxy propyl alcohol; With 368g STANN BO (can be from Sankyo Organic Chemicals Co., the di-n-butyl tin oxide catalysts that Ltd. obtains).With mentioned component under high-shear is stirred with shown in order add.After the complete blend of each component, pigment paste is transferred to vertical skin grinder and is ground to the Hegman value is about 7.26.

At first use high speed Kao Lesi cutter (cowles blade) to disperse mentioned component 30 minutes, in Premier mill, reach about 7 then with 1.0-1.6mm Zircoa media mill 1 hour or until the Hegman value.

Embodiment E

Resin blend 1: this embodiment has described the preparation of the masterbatch of the resin blend that uses in following paint 1,3 and 5.

Weight (g)	Material
		2349.0	Cation type resin from embodiment A
246.9	Toughner ¹
		32.4	Softening agent ²
12.0	Propylene glycol monomethyl ether from BASF Corp.
		6.0	Ethylene glycol ether from BASF Corp.
120.0	Flowing additive ³
		233.7	Deionized water

¹711g DER732 (from the aliphatic epoxy resin of Dow Chemical Co.) and 164.5g dihydroxyphenyl propane are packed in 3 liters of round-bottomed flasks of suitable equipment.With mixture heating up to 130 ℃ and add the 1.65g benzyldimethylamine.Make reaction mixture remain on that the epoxy equivalent (weight) up to mixture is 1232 under 135 ℃.Add 78.8g butylcarbitol formal (can obtain from BASF Corp., be Mazon 1651), mixture is cooled to 95 ℃ then.Add 184.7g Jeffamine D400 (polyoxypropylene diamine that can obtain from Huntsman Corp.) and make reaction remain on 95 ℃ and be " HJ " up to Gardner-Holdt viscosity methoxypropanol with the resin sample of 50/50 dilution.The mixture that adds 19.1g Epon828 and 3.4g butylcarbitol formal, and the maintenance mixture is " Q-" up to the Gardner-Holdt viscosity with 50/50 resin sample of diluting in methoxypropanol.This resin of 988.6g is poured in the mixture of 1242.13g deionized water and 30.2g thionamic acid and mixed 30 minutes.Add 614.8g deionized water and thorough mixing then.The measurement solids content of final aqueous dispersion is 35.8%.

²The reaction product of 2 moles of diethylene glycol monobutyl ethers and 1 moles of formaldehyde, 98% activeconstituents is as in preparation described in people's such as McCollum the U.S. Patent number 4,891,111.

³By as described in people's such as Corrigan the U.S. Patent number 5,096,556, cationic polyepoxide amine reaction product and polyepoxide linking agent blended method are prepared.

Embodiment F

Resin blend 2: this embodiment has described the preparation example of the resin blend that uses in following paint 7:

Weight (g)	Material
		1820.0	Cation type resin from Embodiment B
67.1	The toughner of in embodiment E, describing
		11.7	The softening agent of in embodiment E, describing
4.3	Propylene glycol monomethyl ether from BASF Corp.
		2.2	Ethylene glycol ether from BASF Corp.
43.5	The flowing additive of in embodiment E, describing
		103.5	Deionized water

Embodiment A A

Yttrium solution: this embodiment has described the preparation example of the soluble yttrium solution that uses in paint 2,4 in table 1 and 6 the electrodeposition bath composition.Soluble yttrium solution is prepared by following mixture:

Weight (g)	Material
		112.9	Three yttrium oxide
485.0	Deionized water
		291.3	Thionamic acid

In 5 liters of flasks of suitable equipment, add thionamic acid and water and stirred 20 minutes.Solution is heated to 98 ℃, keeps then until obtaining clear solution.Kept at least 2 hours.Solution is cooled to is lower than 50 ℃.

Embodiment B B

Solution of silane 1: this embodiment has described the preparation example of the aminosilane solution that uses in the electrodeposition bath composition of the paint 3,4 that is adapted in the table 1 and 7.

Merge mentioned component and it was mixed 20 minutes.After 20 minutes, add 88% lactic acid and reach about 5.5 up to pH.

Embodiment C C

Solution of silane 2: this embodiment has described the preparation example of the mixture that is adapted at painting two (trimethoxy-silylpropyl) amine that use in 5 and 6 the electrodeposition bath composition and vinyltriacetoxy silane.

Merge mentioned component and it was mixed 20 minutes.

Following table provides electrodeposition bath preparation of compositions example of the present invention:

Table 1:

By adding preparation paint 1,3 and 5 in 1 gallon of plastic containers from the cation type resin blend of embodiment E.Then before adding resin blend, with the deionized water dilution pigment paste of about 200 grams.In last table, show, before adding, with about 20g deionized water diluted silane solution.To remain deionized water then adds in the container.The final solid of bathing is about 21.5%, and pigment is about 0.14 to the ratio of tackiness agent.To test and bathe ultrafiltration 30% and only be full of with fresh deionized water.After ultrafiltration, add preparation paint 2,4 and 6 in the paint 1,3 and 5 respectively by deionized water, yttrium and/or the silane that will as above show listed amount subsequently.

By adding preparation paint 7 in 1 gallon of plastic containers from the cation type resin blend of embodiment F.Then with in about 50g deionized water dilution pigment paste and the adding resin blend.In the solution of silane and adding mixture of residue deionized water dilution from Embodiment B B.

Above-mentioned paint composite in embodiment (2)-(7) is compared with embodiment (1).Testing substrates is 4 " * 6 " ACT CRS and the EZG plate that purifies with alkaline cleaner.Described plate is not anticipated before electropaining is applied.These plates can be from Hillside, and the ACT Laboratories of Michigan obtains.

With each electrodeposition bath composition galvanic deposit of embodiment 1-7 on the steel plate of the cold rolling and electro-galvanizing of nonphosphateization.The condition of each cationic electrodeposition is as follows: 20-70columbs, 150-200 volt, to produce thickness down at 92 °F be the cured film of 0.8-1.0 mil.Coated substrate was solidified 20 minutes.

Use Elcometer PATTI 110 adhesion testers to make the steel test panel that is untreated of each coating carry out the sticking power test.The result who reports in following table is for for the test panel that stands 16 hours condensation humidity.

Table 2:

PATTI adhesive power (back QCT) burstpressures (psi)

The data declaration of report in table 2, when silane and soluble yttrium salt are present in the electrodeposition bath of the present invention, the improvement of back-QCT PATTI adhesive power.

Claims

1. electrodepositable coating composition comprises (i) film-forming polymer, (ii) corrosion inhibitor and (iii) do not comprise the silane of ethylenical unsaturated double bonds.

2. according to the electrodepositable coating composition of claim 1, wherein corrosion inhibitor comprises rare earth metal, lanthanon or its combination.

3. according to the electrodepositable coating composition of claim 2, wherein corrosion inhibitor is a yttrium.

4. according to the electrodepositable coating composition of claim 1, wherein (ii) corrosion inhibitor accounts for all resins solid≤5 weight % of electrodepositable coating composition.

5. according to the electrodepositable coating composition of claim 1, wherein (iii) silane accounts for all resins solid≤5 weight % of electrodepositable coating composition.

6. according to the electrodepositable coating composition of claim 1, wherein electrodepositable coating composition further comprises the silane that contains ethylenical unsaturated double bonds.

7. according to the electrodepositable coating composition of claim 1, wherein silane contains functional group, and wherein functional group comprises amino, epoxy group(ing), mercaptan or its combination.

8. according to the electrodepositable coating composition of claim 1, wherein electrodepositable coating composition further comprises bismuth, copper, zinc, silver, zirconium or its combination.

9. according to the electrodepositable coating composition of claim 1, wherein (i) film-forming polymer comprise reactive functional groups and wherein the reactive functional groups that further comprises (iv) component (i) of electrodepositable coating composition be reactive linking agent.

10. according to the electrodepositable coating composition of claim 9, wherein electrodepositable coating composition further comprises curing catalysts.

11. according to the electrodepositable coating composition of claim 10, wherein curing catalysts includes machine tin compound, bicyclo guanidine or its combination.

12. be coated with the base material of the electrodepositable coating composition of with good grounds claim 1.

13. according to the base material of claim 12, wherein before with the electrodepositable coating composition coated substrate, described base material is not anticipated with phosphoric acid salt or zirconium preprocessing solution.

14. according to the base material of claim 12, wherein before with the electrodepositable coating composition coated substrate, described base material is anticipated with phosphoric acid salt or zirconium preprocessing solution.

15. according to the base material of claim 12, wherein said base material comprises steel, galvanized steel or aluminium.

16. electrodepositable coating composition, mainly by (i) comprise the film-forming polymer of reactive functional groups, (ii) yttrium, (iii) do not comprise the silane of ethylenical unsaturated double bonds; (iv) the reactive functional groups to film-forming polymer is reactive linking agent; (v) catalyzer is formed.

17. electrodepositable coating composition according to claim 16, wherein after being applied on the base material and solidifying, when carrying out PATTI ADHESION TEST, show than not comprising (ii) yttrium and the (iii) burstpressures of the big at least 100psi of burstpressures of the electrodepositable coating composition of silane.

18. according to the electrodepositable coating composition of claim 16, wherein silane contains functional group, and wherein functional group comprises amino, epoxy group(ing), mercaptan or its combination.

19. according to the electrodepositable coating composition of claim 1, wherein silane is aminosilane.

20. electrodepositable coating composition comprises (i) film-forming polymer, (ii) yttrium and (iii) aminosilane.

21. according to the electrodepositable coating composition of claim 20, wherein aminosilane comprises functional group.

22. electrodepositable coating composition according to claim 20, wherein after being applied on the base material and solidifying, when carrying out PATTI ADHESION TEST, show than not comprising (ii) yttrium and the (iii) burstpressures of the big at least 100psi of burstpressures of the electrodepositable coating composition of aminosilane.

23. according to the electrodepositable coating composition of claim 20, wherein (i) film-forming polymer comprise reactive functional groups and wherein the reactive functional groups that further comprises (iv) component (i) of electrodepositable coating composition be reactive linking agent.

24. according to the electrodepositable coating composition of claim 23, wherein electrodepositable coating composition further comprises (v) catalyzer.

25. according to the electrodepositable coating composition of claim 24, wherein catalyzer comprises dibutyl tin oxide, bicyclo guanidine or its combination.

26. be coated with the base material of the electrodepositable coating composition of with good grounds claim 20.